EP2056865B1 - Novel drug target of preventing and treating periodontal disease, improving healing of periodontal wounds and promoting oral health - Google Patents

Novel drug target of preventing and treating periodontal disease, improving healing of periodontal wounds and promoting oral health Download PDF

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Publication number
EP2056865B1
EP2056865B1 EP07794196.1A EP07794196A EP2056865B1 EP 2056865 B1 EP2056865 B1 EP 2056865B1 EP 07794196 A EP07794196 A EP 07794196A EP 2056865 B1 EP2056865 B1 EP 2056865B1
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Prior art keywords
plasminogen
periodontal
tissue
mice
periodontal disease
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German (de)
English (en)
French (fr)
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EP2056865A4 (en
EP2056865A2 (en
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Tor Ny
Jinan Li
Yongzhi Guo
Tomas Lindh
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Omnio Healer AB
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Omnio Healer AB
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K38/00Medicinal preparations containing peptides
    • A61K38/16Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
    • A61K38/43Enzymes; Proenzymes; Derivatives thereof
    • A61K38/46Hydrolases (3)
    • A61K38/48Hydrolases (3) acting on peptide bonds (3.4)
    • A61K38/482Serine endopeptidases (3.4.21)
    • A61K38/484Plasmin (3.4.21.7)
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K8/00Cosmetics or similar toiletry preparations
    • A61K8/18Cosmetics or similar toiletry preparations characterised by the composition
    • A61K8/30Cosmetics or similar toiletry preparations characterised by the composition containing organic compounds
    • A61K8/64Proteins; Peptides; Derivatives or degradation products thereof
    • A61K8/66Enzymes
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61KPREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
    • A61K9/00Medicinal preparations characterised by special physical form
    • A61K9/0012Galenical forms characterised by the site of application
    • A61K9/0053Mouth and digestive tract, i.e. intraoral and peroral administration
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P1/00Drugs for disorders of the alimentary tract or the digestive system
    • A61P1/02Stomatological preparations, e.g. drugs for caries, aphtae, periodontitis
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P31/00Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P31/00Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
    • A61P31/04Antibacterial agents
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61PSPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
    • A61P31/00Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
    • A61P31/10Antimycotics
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61QSPECIFIC USE OF COSMETICS OR SIMILAR TOILETRY PREPARATIONS
    • A61Q11/00Preparations for care of the teeth, of the oral cavity or of dentures; Dentifrices, e.g. toothpastes; Mouth rinses
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12YENZYMES
    • C12Y304/00Hydrolases acting on peptide bonds, i.e. peptidases (3.4)
    • C12Y304/21Serine endopeptidases (3.4.21)
    • C12Y304/21007Plasmin (3.4.21.7), i.e. fibrinolysin

Definitions

  • This invention relates to methods for prophylaxis, prevention and/or treatment of infectious periodontal disease e.g. gingivitis and periodontitis, and necrotic conditions affecting the gum tissue, relates to promoting oral health in general, and also relates to improving healing of periodontal wounds such as surgical wounds locally.
  • the invention relates to a novel method of preventing and treating infectious periodontal disease, promoting oral health and improving healing of periodontal wounds.
  • Periodontal disease is a chronic inflammatory disease that affects the tissues that support and anchor the teeth, also known as the periodontium. It is caused by the imbalanced interplay between the specific subgingival microorganisms and the host immune and inflammatory response (1). It affects nearly three-quarters of the adult populations and is regarded as one of the most common diseases to human being.
  • the tissues that are involved in periodontal diseases are the gums, which include the gingiva, the periodontal ligament, the cementum, and the alveolar bone ( Fig. 1 ).
  • the gingiva is a pink-colored keratinized mucus membrane that covers parts of the teeth and part of the alveolar bone.
  • the periodontal ligament is the main part of the gums.
  • the cementum is a calcified structure that covers the lower parts of the teeth.
  • the alveolar bone is a set of ridges from the jaw bones (maxillary and mandible) in which the teeth are embedded.
  • the area where periodontal disease is initiated is the gingival sulcus, a pocket between the teeth and the gums.
  • Periodontal disease Infection, inflammation and subsequent host defense and wound healing are all hallmarks of periodontal disease. This disease begins as a mixed bacterial infection in the gingiva surrounding teeth (2). In the healthy mouth, more than 500 species of microorganisms have been found. In periodontal diseases, several potential periodontal pathogens have been studied including Porphyromonas gingiva / is, Campylobacter rectus, Actinobacillus actinomcetemcomitans, and Fusobacterium nucleatum , which are considered to represent a significant portion of the pathogenic microbiota.
  • microorganisms can induce several factors, such as IL-1, IL-6, TNF, as well as enzymes, in host cells which directly or indirectly are thought to cause irreversible tissue destruction including the destruction of the gums, the alveolar bone, the outer layer of the tooth root and eventually leads to tooth loss. Furthermore, serious periodontal disease can lead to bad breath, heart disease and stroke, diabetes, respiratory diseases and premature delivery during pregnancy. There are other pathogenic factors such as smoking/tobacco use, genetics, pregnancy and puberty, stress, medications, diabetes, poor nutrition and other systemic diseases.
  • Another form of infectious destruction of the alveolar bone can occur after surgical implantation of an alloplastic material into the jaws.
  • the implantation method is often referred to as osseointegration (3), which entails close contact between the alloplastic material, i.e. the dental implant (often made of titanium), and the living bone.
  • the method is used to restore occlusion subsequent to the loss of natural teeth and is now a standard method for treating edentulism.
  • a principle difference between the osseointegrated dental implant and the natural tooth is the absence of a true periodontium around the implant.
  • periimplantitis is an inflammatory/infectious process affecting the tissues around an osseointegrated implant in function, resulting in loss of supporting bone. Periimplantitis may lead to complete disintegration and implant loss even if extensive treatment aiming at resolving the periimplant infection has been performed.
  • Periimplantitis also happens as reversible inflammatory/infectious changes of the peri-implant soft tissues without any bone loss.
  • the prevalence of periimplantitis in the soft tissue has been reported in the range of 8-44%, while frequency of periimplantitis in the bone has been reported in the range of 1-19%.
  • the wide ranges for the frequencies seem to be due to differences in defining the entity, at least in part.
  • the frequency of periimplantitis is most likely related to the number of years implants have been worn. Since dental implant treatment was introduced comparatively recently, the numbers will probably increase over the years. Considering the large similarities in the inflammatory response and the immunological defence against infection at teeth and dental implants periimplantitis could be regarded as a form of periodontal disease affecting implanted alloplastic material.
  • Periodontal disease is an important aspect of general oral health.
  • Oral health refers to the status of health of the oral and related tissues which enables an individual to eat, speak and socialize without active disease, discomfort or embarrassment and which contributes to general well-being.
  • Major indications of oral health include the bacterial flora in the saliva and gum tissue, as well as the tissue necrosis and inflammation in the gum tissue.
  • Oral health is integral to general health and should not be considered in isolation.
  • Antibiotics and other antimicrobial drugs have been widely used in treatment of infectious diseases since the World War II era. The success of antimicrobials against disease-causing microbes is among modern medicine's great achievements. However, many antimicrobials are not as effective as they used to be.
  • a key factor in the development of antibiotic resistance is the ability of infectious organisms to adapt quickly to new environmental conditions. Over time, some bacteria have developed ways to circumvent the effects of antibiotics. Widespread use of antibiotics is thought to have spurred evolutionarily adaptations that enable bacteria to survive these once so powerful drugs.
  • Drug resistance is an especially difficult problem for hospitals harboring critically ill patients who are less able to fight off infections without the help of antibiotics. Therefore, there is an increasing awareness that novel therapeutic strategies are highly needed to improve the infection defense against infection.
  • Treatment of periodontal disease includes conservative (non-surgical) methods and surgical methods.
  • Conservative treatment consists of deep cleanings known as scaling and rootplaning as well as gingival curettage. This treatment is aimed to remove the biofilm colonizing the affected root surfaces and reestablish an environment where healing can occur. Accompanied with good oral hygiene this will maintain healthy normal gums.
  • Surgical periodontal treatment consists of osseous (bone) surgery, gingival/periodontal grafts, gingival flap procedure, frenectomy, gingivectomy, guided tissue regeneration/bone augmentation.
  • Necrosis is the name given to unprogrammed or accidental death of cells and living tissue. It is less orderly than apoptosis, which are part of programmed cell death. In contrast with apoptosis, cleanup of cell debris by phagocytes of the immune system is generally more difficult, as the disorderly cell death generally does not send "eat-me” cell signals which tell nearby phagocytes to engulf the dying cell. This lack of signalling makes it harder for the immune system to locate and recycle dead cells which have died through necrosis than if the cell had undergone apoptosis. The release of intracellular content after cellular membrane damage is cause of inflammation in necrosis. There arc many causes of necrosis including injury, infection, cancer, infarction, invenomation and inflammation.
  • Necrosis Severe damage to one essential system in the cell leads to secondary damage to other systems, a so-called "cascade of effects". Necrosis is caused by special enzymes that are released by lysosomes which are capable of digesting cell components or the entire cell itself. The injuries received by the cell may compromise the lysosome membrane, or may set off an unorganized chain reaction which causes the release in enzymes. Unlike in apoptosis, cells that die by necrosis may release harmful chemicals that damage other cells. Necrosis of biopsy material is halted by fixation or freezing.
  • necrotizing gingivitis occurs in certain types of periodontal disease. Necrotizing gingivitis is an inflammatory destructive gingival condition characterized by interproximal necrotic ulcers, spontaneous bleeding, rapid onset of pain and bad odor. Unless properly treated, necrotizing gingivitis has a marked tendency for recurrence and lead to considerable loss of periodontal support.
  • necrosis there are four major therapeutic methods to cure necrosis. The first is surgical, which is the most rapid, and therefore is recommended when large necrotic areas or thick scars are present. The second is mechanical, which includes hydrotherapy, dextranomers and wound irrigation. The third is enzymatical, the enzyme used is mainly collagenase (eg: Santyl), however, the effect is too slow when infection presents; and the fourth is through autolytic method, which is via enzymes in wound fluid but the effect is extremely slow.
  • collagenase eg: Santyl
  • autolytic method which is via enzymes in wound fluid but the effect is extremely slow.
  • none of the four treatment methods could give a functional and aesthetically satisfactory necrosis removal and tissue remodeling. Therefore, a novel therapeutic strategy is in great need in order to achieve a successful removal of necrosis.
  • Plasmin is the key component of the PA system. It is a broad-spectrum protease which has the ability to degrade several components of the ECM including fibrin, gelatin, fibronectin, laminin and proteoglycans (4). In addition, plasmin can convert some pro-matrix metalloproteinases (proMMPs) to active MMPs. It has therefore been suggested that plasmin may be an important upstream regulator of extracellular proteolysis (5;6). Plasmin is formed from the zymogen plasminogen through proteolytic cleavage by either of two physiological PAs, tPA or uPA.
  • proMMPs pro-matrix metalloproteinases
  • PAI-1 which inhibits both uPA and tPA
  • PAI-2 which inhibits mainly uPA.
  • Certain cells also have a specific cell-surface receptor for uPA (uPAR) that can direct proteolytic activity to the cell surface (8;9).
  • Plasminogen is a single-chain glycoprotein consisting of 790 amino acids with a molecular mass of approximately 92 kDa (7;8). Plasminogen is mainly synthesized in the liver and is abundant in most extracellular fluids. In plasma the concentration of plasminogen is approximately 2 ⁇ M. Plasminogen therefore constitutes a large potential source of proteolytic activity in tissues and body fluids (9;10). Plasminogen exists in two molecular forms: Glu-plasminogen and Lys-plasminogen. The native secreted and uncleaved form has an amino-terminal (N-terminal) glutamic acid and is therefore designated Glu-plasminogen.
  • Glu-plasminogen is cleaved at Lys 76 -Lys 77 to become Lys-plasminogen.
  • Lys-plasminogen has a higher affinity for fibrin and is activated by PAs at a higher rate.
  • These two forms of plasminogen can be cleaved at the Arg 560 -Val 561 peptide bond by uPA or tPA, resulting in the formation of the disulphide-linked two-chain protease plasmin (11).
  • the amino-terminal part of plasminogen contains five homologous triple-loops, so-called kringles, and the carboxyl-terminal part contains the protease domain.
  • kringles contain lysine-binding sites which mediate the specific interaction of plasminogen with fibrin and its inhibitor ⁇ 2 -AP.
  • a novel and interesting finding is that a 38-kDa fragment of plasminogen, consisting of kringles 1-4, is a potent inhibitor of angiogenesis. This fragment is termed angiostatin and can be generated from plasminogen through proteolytic cleavage by several MMPs.
  • Plasmin also has substrate specificities for several other components of the ECM, including laminin, fibronectin, proteoglycans and gelatin, indicating that plasmin also plays an important role in ECM remodeling (8;13;14). Indirectly, plasmin can also degrade additional components of the ECM through its ability to convert some pro-MMPs to active MMPs, including MMP-1, MMP-2, MMP-3 and MMP-9. It has therefore been suggested that plasmin may be an important upstream regulator of extracellular proteolysis (15). In addition, plasmin has the ability to activate latent forms of certain growth factors (16-18). In vitro, plasmin also cleaves components of the complement system and thereby release chemotactic complement fragments.
  • the PA system has been suggested to be involved at several stages and by various mechanisms during bacterial invasion (19).
  • a vast number of pathogens express plasmin(ogen) receptors (20;21). Bacteria also influence the secretion of PAs and their inhibitors from mammalian cells (22;23). For instance, production of uPA has been found to be enhanced in cells infected by various bacteria (24).
  • in vivo evidence for a role of plasminogen activation in pathogenesis exists in a few bacteria such as Yersinia pestis, Borrelia, and group A streptococci.
  • plasminogen receptors present on the surfaces of some bacteria convert these bacteria into proteolytic organisms.
  • the filamentous surface appendages form a major group of plasminogen receptors (25;26).
  • plasminogen receptors In Gram-positive bacteria, surface-bound molecules have been identified as plasminogen receptors (27;28).
  • plasmin can be generated on the surface of microorganisms such as Haemophilus influenzae, Salmonella typhimurium, Streptococcus pneumoniae, Yersinia pestis, and Borrelia burgdorferi, which can lead to a degradation of mammalian ECM.
  • bacterial proteases may also directly activate latent pro-collagenases or inactivate protease inhibitors in human plasma, and thus contribute to tissue damage and bacterial spread across tissue barriers (29;30).
  • Models of periodontal disease include spontaneous type and induced type.
  • the periodontal tissue is exposed to a microbe-rich environment. Bacterial invasion and subsequent host defense in the oral cavity occurs constantly and normally remain in balance. Disruption of this host-bacterial balance causes various types of periodontal disease. This could be due to an imbalance between the oral microbiota, alterations in phagocyte function and/or specific immune response. Severe periodontal disease occurs in approximately 2% of US adolescents and in approximately 20% of US adults.
  • Periodontal pathogens include Porphyromonas gingivalis, Campylobacter rectus, Actinobacillus actinomycetemcomitans, and Fusobacterium nucleatum , which are considered to represent a significant portion of the pathogenic microbiota. They possess or can induce in host cells several factors, such as IL-1, IL-6, tumor necrosis factor, surface-associated proteins, fimbriae, vesicles, toxins, and enzymes, which are thought to cause, directly or indirectly, irreversible loss of periodontal supportive tissues.
  • Periodontal wounds are commonly seen, especially during periodontal surgery.
  • Periodontal wound model can be established by inducing incisional wounds at the gum tissue in the mice. Thereafter the healing pattern of the wounds and the effects of the candidate drug or compounds can be evaluated.
  • the present invention relates to the novel discovery that components of the plasminogen-activation pathway, and compounds with the capacity to activate plasminogen can be used for new and improved strategies for preventing and treating periodontal disease and tissue necrosis, for healing of periodontal wounds (such as surgical wounds) and for promoting oral health in general.
  • the administration of plasminogen and/or other members of the plasminogen-activation pathway or compounds with the capacity to activate plasminogen play a pluripotent role in protecting against bacterial-induced infection and promoting healing of periodontal wounds by activating inflammatory cells, accelerating migration of keratinocytes, killing bacteria, removing necrotic tissue and enhancing cytokine expression.
  • the extensive occurrence of periodontal disease in plasminogen-deficient mice under natural conditions also provides an excellent animal model to for studying periodontal disease, and screening methods for identifying and evaluating new drugs and treatment methods for various aspects of periodontal disease, periodontal wound improvement and prompt oral health in general.
  • the present invention provides the use of an active agent or compound that is a component of the plasminogen-activating pathway or has the capacity to activate plasminogen directly or via the plasminogen-activating pathway for the manufacture of a pharmaceutical composition comprising an effective amount of the compound/agent, or a combination of two or more such agents/compounds, for the prophylaxis, prevention and/or treatment of periodontal disease ,especially infectious periodontal disease, and/or removal of necrosis in the gum tissue, in a subject in need of such treatment.
  • the active agent is selected from a naturally occurring genetic variant of plasminogen, Lys-plasminogen, Glu-plasminogen, mini-plasminogen, and variants of plasminogen comprising one or more of the kringle domains and the proteolytic domain.
  • the active agent is plasminogen and its derivatives.
  • the active agent can be administered by any route of administration known in the art. Preferred, non-limiting, routes of administration include topical application, intra-gingival injection and intravenous injection.
  • the agent may also be present in a wound dressing applied onto the infected area of periodontal tissue, if possible, from which it is transferred to the infected site of periodontal tissue.
  • the composition may be part of a gel, lotion, balm, paste (toothpaste), gargling solution (mouthwash solution) or wound dressing
  • the present invention also provides the use of a compound or active agent that is a component of the plasminogen-activating pathway or a compound which has the capacity to activate plasminogen directly or via the plasminogen-activating pathway for the manufacture of a pharmaceutical composition comprising an effective amount of such compound/agent, or a combination of tow or more such compounds/agents, for improving resolution and/or promoting the healing of periodontal wounds and surgical periodontal wounds, especially infectious periodontal wounds and surgical infectious periodontal wounds in a subject in need of such treatment.
  • the active agent is selected from a naturally occurring genetic variant of plasminogen, Lys-plasminogen, Glu-plasminogen, mini-plasminogen, and variants of plasminogen comprising one or more of the kringle domains and the proteolytic domains.
  • the active agent is plasminogen.
  • the active agent can be administered by any route of administration known in the art. Preferred, non-limiting, routes of administration include topical application, intra-gingival injection and intravenous injection.
  • the agent may also be present in a wound dressing, a gel, lotion, balm, paste, mouthwash solution and toothpaste applied onto the wounded area of periodontal tissue, if possible, from which it is transferred to the wounded site of periodontal tissue.
  • the present invention provides a method of prompting oral health, comprising administering a composition comprising an active agent which is a component of the plasminogen-activation pathway or a compound with the capacity to activate plasminogen, or a combination of two or more such agents.
  • the active agent is selected from a naturally occurring genetic variant of plasminogen, Lys-plasminogen, Glu-plasminogen, mini-plasminogen, and variants of plasminogen comprising one or more of the kringle domains and the proteolytic domains.
  • the active agent is plasminogen, such as Glu-plasminogen or Lys-plasminogen.
  • the active agent can be administered by any route of administration known in the art.
  • composition may be part of a gel, lotion, balm, paste, or dressing.
  • routes of administration include topical application such as tooth paste or the usage of gargling solution (mouthwash solution) which can be used for strengthening teeth against decay and prompting oral health.
  • the invention also provides for a method of initiating the host defense for treating periodontal disease, especially infectious periodontal disease, in conditions where host defense is retarded or impaired, comprising administering an active ingredient which is plasmin or plasminogen.
  • the method of the invention can be used for improving host defense against periodontal disease in conditions of local or systemic deficiency/impairment of plasmin or plasminogen.
  • the invention provides a method for prophylaxis, prevention and treatment of periodontal disease, especially infectious periodontal disease, improving healing of periodontal wounds such as surgical wounds and promoting oral health in human or non-human subjects by administering a compound or drug which is plasminogen and their derivatives.
  • the compound is administered locally to attain a high concentration in the infected area.
  • the invention provides for a method for reducing or preventing oral necrosis formation by administering a composition comprising local or systemic administration of a composition comprising a compound which is a component of the plasminogen activation pathway.
  • the composition may be part of a gel, lotion, balm, paste, or wound dressing. Alternatively, the composition may be administered systemically.
  • the method of the invention is applied in conjunction with plastic surgery in the periodontal tissue to reduce the occurrence and the formation of infection, ulcer and necrosis.
  • the invention provides a pharmaceutical composition for the treatment, prophylaxis and prevention of periodontal disease, especially infectious periodontal disease, comprising an effective amount of a compound which is a component of the plasminogen-activating pathway or compounds with the capacity to activate plasminogen.
  • the component of the plasminogen-activating pathway can be selected from naturally occuring genetic variants of plasminogen, Lys-plasminogen, Glu-plasminogen, kringle domains of plasminogen, mini-plasminogen.
  • the component of the plasminogen-activating pathway is plasminogen.
  • the invention provides a method for prophylaxis, prevention and/or treatment of periodontal disease, especially infectious periodontal disease, comprising administering a pharmaceutical composition comprising an effective amount of a compound according to claims 1-16, which compound is a component of the plasminogen-activating pathway or which has the capacity to activate plasminogen directly or via the plasminogen-activating pathway to a subject in need of such treatment.
  • the component of the plasminogen-activating pathway can be selected from plasminogen, Lys-plasminogen, Glu-plasminogen, kringle domains of plasminogen, mini-plasminogen.
  • the component of the plasminogen-activating pathway is plasminogen.
  • the invention provides a pharmaceutical composition for promoting the healing of periodontal wounds, especially infectious periodontal wounds, which comprises an effective amount of a component of the plasminogen-activating pathway or a compound with the capacity to activate plasminogen.
  • the component of the plasminogen-activating pathway can be selected from naturally occuring genetic variants of plasminogen, Lys-plasminogen, Glu-plasminogen, kringle domains of plasminogen, mini-plasminogen.
  • the component of the plasminogen-activating pathway is plasminogen or plasmin.
  • the invention provides a method for promoting the healing of periodontal wounds, especially infectious periodontal wounds, comprising administering a pharmaceutical composition comprising an effective amount of compound, which is a component of the plasminogen-activating pathway or which has the capacity to activate plasminogen directly or via the plasminogen-activating pathway to a subject in need of such treatment.
  • the component of the plasminogen-activating pathway can be selected from plasminogen, Lys-plasminogen, Glu-plasminogen, plasmin, kringle domains of plasminogen and plasmin, mini-plasminogen, mini-plasmin.
  • the component of the plasminogen-activating pathway is plasminogen or plasmin.
  • providing or enhancing the levels of plasminogen and/or plasmin can be used for prophylaxis, prevention and treatment of periodontal disease, accelerating the healing of periodontal wounds and prompting the oral health.
  • This may be accomplished in many different ways. For instance, by treating a patient with active agents, drugs, hormones, cytokines, antibodies, or other compounds that up-regulate the expression of plasmin, plasminogen, or plasminogen-activators; reduce the degradation of either of these components; the local or systemic levels of plasminogen and/or plasmin can be increased.
  • local plasmin or plasminogen level is increased by directly applying plasmin/plasminogen proteins and their derivatives.
  • plasmin activity is enhanced by administration of an activator of plasmin or /plasminogen.
  • an activator of plasmin or /plasminogen such as streptokinase and staphylokinase is used.
  • a fragment of plasminogen protein sequence such as synthetic peptides, kringle domains miniplasminogen or miniplasmin is used.
  • Components of the plasminogen-activation pathway or compounds with the capacity to activate plasminogen may be produced by purifying the component(s) or compounds from bacteria, humans, or other animals, or by recombinant production in yeast such as S . cerevisiae, in bacteria such a E . coli, and in mammalian cell line such as Chinese Hamster Ovary cell line.
  • the component may be wild-type or modified/mutated. Fragments of the component which retain at least a part of the desired activity of the full-length component may also be used.
  • a substantially pure preparation of human plasminogen is used.
  • a substantially pure preparation of human plasmin is used.
  • a substantially pure preparation of miniplasminogen or a fragment of plasminogen protein sequence is used.
  • the method of the invention is used for prophylaxis, prevention and treatment of periodontal disease, healing of periodontal wounds and prompting oral health for daily life.
  • animals include, but are not limited to, vertebrates such as humans and domestic animals, including dogs, cats, horses, cows, pigs, and domesticated fowls.
  • the methods of the invention are applied for management of periodontal disease in a human subject.
  • the human or non-human subject may or may not suffer from a condition which impairs the healing of periodontal disease.
  • the methods of the invention are applied for improving the healing of periodontal wounds.
  • the periodontal wounds include, but are not limited to, traumatic wounds due to injuries and surgical wounds.
  • the subject is a human which plans to undergo, is undergoing, or has undergone, plastic surgery in the periodontal area of the mouth.
  • a composition comprising, e.g., plasminogen, can be applied or administered both prior to and/or after surgery.
  • the methods of the invention are applied for prompting oral health.
  • a composition comprising a method to increase the level/activity of plasminogen, plasmin or miniplasmin can be applied or administered to prompt the oral health.
  • the active agents of the invention are used for modulating the biological activity of a drug target, and they are used in the treatment of conditions in which degradation of ECM, host defense and/or impairment of wound healing are observed. In particular, they may be used for preventing and treating periodontal disease, healing of periodontal wounds and prompting oral health.
  • the active agents of the invention may be formulated into pharmaceutical compositions for administration to subjects in a biologically compatible form suitable for administration in vivo.
  • biologically compatible form suitable for administration in vivo meant a form of the active agent to be administered in which any toxic effects are outweighed by the therapeutic effects.
  • the active agent may be administered to living organisms including humans, and animals.
  • An active amount of the active agent of the present invention is defined as an amount effective, at dosages and for periods of time necessary to achieve the desired result.
  • a therapeutically active amount of an active agent may vary according to factors such as the disease state, age, sex, and weight of the individual, and the ability of antibody to elicit a desired response in the individual. Dosage range may be adjusted to provide the optimum therapeutic response. For example, several divided doses may be administered daily or the dose may be proportionally reduced as indicated by the exigencies of the therapeutic situation.
  • composition(s) may be administered in a convenient manner such as by injection (subcutaneous, intravenous, etc.), oral administration, inhalation, rectal, administration or transdermal application.
  • the active agent(s) may be coated in a material to protect the agent from the action of enzymes, acids and other natural conditions that may inactivate the agent.
  • suitable routes of administration include topical, intravenous, intramuscular, intradermal, oral, rectal, and intravaginal administration.
  • a preferred administration route is topical administration or oral administration.
  • compositions described herein can be prepared by methods known per se for the preparation of pharmaceutically acceptable compositions which can be administered to subjects, such that an effective quantity of one or more active agent(s) is combined in a mixture with a pharmaceutically acceptable vehicle.
  • Suitable vehicles are described, for example, in Remington's Pharmaceutical Sciences (Mack Publishing Company, Easton, Pa., USA 1985 ).
  • the compositions include, albeit not exclusively, solutions of the active agents in association with one or more pharmaceutically acceptable vehicles or diluents, and contained in buffered solutions with a suitable pH and iso-osmotic with the physiological fluids.
  • Examples of vehicles that may be used in delivering the active agents according to the invention include, but are not limited to, gel, pastes, balms, waxes, lotions, skin creams, rinsing solutions, dried powers with/without bulking agent and various other formats for topical administration known in the art.
  • the compositions may also be delivered locally in the form of a powder or solution sprayed, or gargling solutions.
  • the compositions of the invention may be present in wound dressings, pads, band-aids, gauze, or other means applied to the area of interest, from which they are transferred to the needed area.
  • Such devices also include slow-release devices, continually releasing plasminogen or other agents of the invention for a prolonged period of time, or can include instant-release devices, which releasing plasminogen or other agents of the invention immediately at the time for use.
  • compositions After pharmaceutical compositions have been prepared, they can be placed in an appropriate container and labeled for treatment of an indicated condition.
  • labeling would include amount, frequency, and method of administration.
  • compositions may be administered at regular intervals, e.g., once or twice a day, or added in dressings or slow-release devices which are changed as appropriate.
  • the composition may be administered instantly, by forming the composition at the time of use.
  • a compound of the group comprising: plasminogen, plasmin, a component of the plasminogen activation pathway, a plasminogen analogue, such as mini-plasmin, a plasmin analogue, an analogue of a component of the plasminogen activation pathway, a plasminogen activator refers to a compound that directly or indirectly provides the effect of plasminogen or plasmin, respectively.
  • a component of the plasminogen activation pathway refers to plasminogen, Lys-plasminogen, Glu-plasminogen, variants and analogues of plasminogen comprising one ore more domains of plasminogen such as one ore more of the kringle domains and the proteolytic domain exemplified by mini-plasminogen; plasmin and variants and analogues of plasmin comprising at least one ore more domains of plasmin such as one or more of the kringle domains and the proteolytic domain, exemplified by mini-plasmin and delta-plasmin; a plasminogen activator having the final effect of activating plasminogen, e.g.
  • plasminogen exemplified by uPA and tPA and variants and analogues of tPA and uPA comprising one ore more domains of tPA or uPA such as one ore more of the kringle domains and the proteolytic domain.
  • variants of plasminogen, plasmin, tPA and uPA include all naturally occurring genetic variants of human as well as other mammalian forms of these proteins, as wells as mutant variants of these proteins obtained by conservative amino acid replacements.
  • an "analogue" of plasminogen or plasmin is a compound providing essentially an analogous effect as plasminogen or plasmin, respectively, as measured by enzymography, ELISA (enzyme-linked immunosorbent assay) and FACS (fluorescence activated cell sorter), There is also an assay for measuring levels of converted plasmin activity as described previously: Ny,A., Leonardsson,G., Hagglund,A.C., Hagglo,P., Ploplis,V.A., Carmeliet, P., and Ny,T. (1999). Ovulation in plasminogen-deficient mice. Endocrinology 140, 5030-5035 .).
  • An "analogue" of a component of the plasminogen activation pathway is a compound providing essentially an analogous effect as a component of the plasminogen activation pathway as measured by the levels of plasmin activity that this analogue activates.
  • Periodontal disease is a common inflammatory disorder caused by the interplay between the specific subgingival microorganisms and the host immune and inflammatory response. Periodontal diseases range from simple gum inflammation to serious disease that result in major damage to the soft tissue and bone that support the teeth. In the worst cases, teeth are lost. The bacteria cause inflammation of the gums that is called “gingivitis.” In gingivitis, the gums become red, swollen and can bleed easily. Gingivitis is a mild form of gum disease that can usually be reversed with daily brushing and flossing, and regular cleaning by a dentist or dental hygienist. This form of gum disease does not include any loss of bone and tissue that hold teeth in place.
  • Periodontitis When gingivitis is not treated, it can advance to "periodontitis" (which means "inflammation around the tooth.")
  • gingivitis In periodontitis, gums pull away from the teeth and form “pockets” that are infected.
  • the body's immune system fights the bacteria as the plaque spreads and grows below the gum line. Bacterial toxins and the body's enzymes fighting the infection actually start to break down the bone and connective tissue that hold teeth in place. If not treated, the bones, gums, and connective tissue that support the teeth are destroyed. The teeth may eventually become loose and have to be removed.
  • Another type of periodontal disease, periimplantitis occurs as a biological complication after surgical implantation of an alloplastic material into the jawbone.
  • Periimplantitis is an inflammatory/infectious process affecting the tissues around an osseointegrated implant in function, resulting in loss of supporting bone. Periimplantitis may lead to complete disintegration and implant loss even if extensive treatment aiming at resolving the periimplant infection has been performed. Periimplantitis also happens as reversible inflammatory/infectious changes of the peri-implant soft tissues without any bone loss, sometimes referred to as peri-implant mucositis. In the current patent, the definition of periodontal disease includes at least periodontitis, gingivitis, periimplantitis and peri-implant mucositis.
  • infectious periodontal disease is periodontal disease caused by infection, in contrast to e.g. ligneous periodontitis.
  • E.g. infectious periodontitis can be caused by bacterial, viral or fungal infection.
  • bacterial periodontal disease is caused by bacterial infection.
  • Periodontal wound refers to the traumatic wounds and surgical wounds occurring at the periodontal tissue of the mouth, including wounds at the tissues surrounding implants in the periodontal area.
  • Oral health refers to the standard of health of the oral and related tissues which enables an individual to eat, speak and socialize without active disease, discomfort or embarrassment and which contributes to general well-being.
  • Major indications of oral health include the bacterial flora in the saliva and gum tissue, as well as the tissue necrosis and inflammation in the gum tissue.
  • Oral health is integral to general health and should not be considered in isolation.
  • Derivatives of plasmin/plasminogen refers to e.g. kringle domains of plasmin or plasminogen, protein fragments of plasmin or plasminogen, mini-plasminogen and mini-plasmin as well as the synthetic derivatives of plasmin or plasminogen
  • Mini-plasminogen refers to the C-terminal fragment of native plasminogen, which includes the enzyme active site.
  • the Mr of miniplasminogen is 38000.
  • Activation with urokinase or streptokinase yields a two-chain enzyme with substrate specificity extremely similar to that of plasminogen, which is termed as 'mini-plasmin'.
  • Necrosis refers death of tissue in the body. This happens when not enough blood is supplied to the tissue, whether from injury, radiation, or chemicals. Necrosis is not reversible. There are many causes of necrosis including injury, infection, cancer, infarction, invenomation, chronic wounds, ulcers and inflammation.
  • Topical and topical application refer to non-systemic, local, administration of an active ingredient.
  • topical application can refer to application of an active ingredient to the external surface of a wound.
  • the "activity" of a protein or compound refers to the effect the protein or compound has on a specific reaction, and is a measure of its ability to affect, modulate, participate in, or promote the reaction.
  • the activity of a protein or other compound can be measured.
  • enzymes such as plasmin, PA, and MMPs
  • modulators enzyme activity can be expressed as the rate at which the product of the reaction is produced, represented, e.g., as the amount of product produced per unit of time and of enzyme (e.g., concentration or weight).
  • activity can refer to the ability of the modulator to inhibit or promote, increase or decrease, up- or down-regulate, the rate of a reaction or the amount of product formed from the reaction.
  • wound is a break in the structure of an organ or tissue, including epithelium, connective tissue, and muscle tissue, caused by an external agent.
  • wounds include, but are not limited to, bruises, grazes, tears, cuts, punctures, and burns. Other particular types of wounds are those that are a consequence of plastic surgery procedures.
  • Treatment of a subject, or “treating” a subject for a disease or condition herein means reducing or alleviating clinical symptoms of the disease or condition such as impaired or slow wound-healing.
  • “Enhancing” wound healing means increasing the speed by which the wound heals.
  • “enhancing” wound healing means reducing the formations of scar tissue during or after healing.
  • a "subject” herein includes both human and non-human animals.
  • Non-human animals include, without limitation, laboratory animals such as mice, rats, rabbits, hamsters, guinea pigs, etc.; domestic animals such as dogs and cats; and farm animals such as sheep, goats, pigs, horses, and cows.
  • a non-human animal of the present invention may be a mammalian or non-mammalian animal; a vertebrate or an invertebrate.
  • control is a value used to detect an alteration in, e.g., the treatment of periodontal disease, healing of periodontal wounds and prompting oral health, or any other assays described herein.
  • a subject "at risk for”, “predisposed to”, or “susceptible to” a disease or condition means that the risk for the individual to contract or develop the disease or condition is higher than in the average population.
  • a "deficiency" of a compound means that the amount, level, or concentration of the compound is significantly lower than a control value. For example, in a plasminogen-deficient animal, the body fluid and tissue levels of plasminogen are significantly lower than in a wild-type animal.
  • a value which is "substantially different” from another value can mean that there is a statistically significant difference between the two values. Any suitable statistical method known in the art can be used to evaluate whether differences are significant or not.
  • a "statistically significant" difference means a significance is determined at a confidence interval of at least 90%, more preferably at a 95% confidence interval.
  • DOK (early neoplastic/dysplastic human oral keratinocytes) cells were incubated in cell culture media After starving, DOK cells were incubated in DMEM cell culture medium, containing hydrocortisone, glutamine, penicillin/streptomycin, 10% plasminogen depleted fetal bovine serum, and in the absence or presence of human plasminogen.
  • DMEM cell culture medium containing hydrocortisone, glutamine, penicillin/streptomycin, 10% plasminogen depleted fetal bovine serum, and in the absence or presence of human plasminogen.
  • a standard scratch was made on the keratinocyte layer in order to induce in vitro wound healing model.
  • the keratinocyte migration was documented under ZEISS microscope.
  • DOK eyely neoplastic/dysplastic human oral keratinocytes
  • cell migration seems to be almost arrested in the absence of plasminogen in the culture media during the experimental period ( Fig. 2A , upper panels).
  • keratinocyte migration appears to be enhanced as compared to that in the plasminogen-depleted media ( Fig. 2A , lower panels).
  • plasminogen exposure 4 ⁇ M
  • the edges of such in vitro wounds are close to be fused ( Fig. 2B ).
  • cell migration rate appears to be plasminogen concentration dependent. This experiment clearly indicates that plasminogen is important for faster wound closure and enhanced healing rate of damaged tissue in vitro.
  • This experiment is dedicated to investigate the importance of plasminogen in the development of periodontal disease by analyzing wild-type and plasminogen-deficient mice at different age.
  • Plasminogen-deficient mice and wild-type mice were divided into three age groups (5 - 8 mice per genotype per group): Group I: 8 - 12 weeks old; Group II: 12 - 16 weeks old; Group III: 16 - 20 weeks old. The development of periodontal disease was followed by analyzing the tissue samples of each genotype and age group.
  • the lower and upper jaws are separated from the cranium, de-fleshed from gross soft tissue such as tongue, and fixed in 4% paraformaldehyde (PFA) for 24 hours. Thereafter, samples were transferred to the decalcification solution to remove calcium from the bone tissue. After four weeks of decalcification process specimens were embedded in paraffin and sectioned at 5 ⁇ m thickness for morphological staining. Safranin O staining was used for morphological analysis, thus cartilage and mucin are stained in dark red, bone structures and teeth are blue, and the cell nuclei are stained dark blue.
  • Plasminogen-deficient mice have significantly higher amounts of bacteria in the saliva than that of wild-type mice
  • mice Wild-type, plasminogen-heterozygous and plasminogen-deficient mice at age between 16-20 weeks old were used in this study (Table I). Salivary sampling of mice was performed by collecting the saliva from the mouth with a sterile pipette tip and transferred into anaerobic medium for immediate culturing.
  • mice Ten plasminogen-deficient (8-12 week old) mice were randomly divided into plasminogen and PBS treatment groups (5 mice per group). From day 0 to day 9 mice were injected intravenously daily with 100 ⁇ l of human plasminogen (10 mg/ml) or PBS. At day 10 mice were sacrificed. For the left side jaws, molar teeth were pulled out for the recovery of bacteria. Right side jaws were processed for decalcification, paraffin embedding and morphological staining. Three non treated wild type mice of the same age were included as controls in the experiment.
  • necrotic tissue was present in the gum tissue, surrounding collagen tissue started to detach from teeth and bone resorption had taken place ( Fig. 8 and Fig. 9 , left panels).
  • Plasminogen-deficient mice supplemented with human plasminogen had completely recovered the cellular and tissue structure: no inflammation was observed in the gum tissue, necrotic tissue had been removed and collagen tissue remodeling had taken place ( Fig. 8 and Fig. 9 , right panels).
  • the morphological analysis showed similar normal tissue structure as in Fig. 3 . This data clearly show that plasminogen plays a pivotal role in maintaining normal tissue structure and function against periodontal disease.
  • mice Ten plasminogen-deficient (16-20 week old) mice were randomly divided into plasminogen and PBS treatment groups (5 mice per group). From day 0 to day 9 10 ⁇ l of human plasminogen (10 mg/ml) was locally injected daily to the gum tissue of both sides of the lower jaws of plasminogen-deficient mice. For control PBS-treated group, 10 ⁇ l of PBS was locally injected daily to the gum tissue of both sides of the lower jaws of plasminogen-deficient mice. At day 10 mice were sacrificed and performed for morphological studies. Three non-treated wild-type mice and three non-treated plasminogen-deficient mice were used as non-treatment controls.
  • the lower and upper jaws are separated from the cranium, de-fleshed from gross soft tissue such as tongue, and fixed in 4% PFA for 24 hours. Thereafter, samples were transferred to the decalcification solution to remove calcium from the bone tissue. After four weeks of decalcification process specimens were embedded in paraffin and sectioned at 5 ⁇ m thickness for morphological staining. Safranin O staining was used for morphological analysis, thus cartilage and mucin are stained in dark red, bone structures and teeth are blue, and the cell nuclei are stained dark blue.
  • plasminogen-deficient mice Local injection of plasminogen at the gum tissue successfully diminished the severity of periodontal disease in plasminogen-deficient mice. As expected, severe periodontal disease occurred in all the 5 PBS treated plasminogen-deficient mice: necrotic tissue was present in the gum tissue (N), surrounding collagen tissue started to detach from teeth and bone resorption had taken place ( Fig. 10 , two upper panels to the left). Plasminogen-deficient mice locally supplemented with human plasminogen had recovered the normal cellular and tissue structure to a large extent: low levels of inflammation were observed in the gum tissue, necrotic tissue had been removed and collagen tissue remodeling had taken place ( Fig. 10 , two upper panels to the right).
  • mice This experiment is dedicated to investigate the importance of plasmin in the development of periodontal disease by analyzing the periodontal tissue in wild-type and tPA/uPA double-deficient mice.
  • tPA and uPA double-deficient mice were created in our lab in order to create mice lacking of plasminogen activation. These mice, although containing plasminogen in their bodies, can not convert the plasmin precursor to active plasmin. Therefore, data from these mice can directly address of the importance of active plasmin in the host defense against spontaneous periodontal disease.
  • the lower and upper jaws are separated from the cranium, de-fleshed from gross soft tissue such as tongue, and fixed in 4% paraformaldehyde (PFA) for 24 hours. Thereafter, samples were transferred to the decalcification solution to remove calcium from the bone tissue. After four weeks of decalcification process specimens were embedded in paraffin and sectioned at 5 ⁇ m thickness for morphological staining. Safranin O staining was used for morphological analysis, thus cartilage and mucin are stained in dark red, bone structures and teeth are blue, and the cell nuclei are stained dark blue.
  • Example 7 the results from Example 7 indicate that local injection of plasminogen restores the host defense capacity (e.g. killing bacteria) in a induced infection model in plg-/- mice;
  • the results from Example 8 indicate that local injection of plasminogen in a induced infection model further enhances the normal host defense capacity (e.g. killing bactiera) in nonnal wild-type mice.
  • Example 9 we also include in the current patent application another example that we going to perform (Example 9). In this example, we describes a clinical model of induced periodontal disease and we believe that application of plasminogen can restore the host defense in plg-/- mice and further enhance the normal host defense in wild-type mice or other species.
  • plg -/- mice with human plasminogen (hPlg) restored the normal host defense against bacterial infection in the knee joints
  • Bacterial arthritis was induced by local inoculation of 1 ⁇ 10 6 CFU of S . aureus Phillips in 10 ⁇ l sterile PBS into both knee joints of mice. 15 minutes after bacterial inoculation, one side of the knee joints of 6 pg -/- mice was supplemented with 40 ⁇ l of human plasminogen (10 ⁇ g/ ⁇ l in PBS, Biopool, Ume ⁇ , Sweden) by local injections around the knee joint tissue. Thereafter human plasminogen was supplemented at 24-hour intervals for 7 days.
  • plg -/- mice were locally injected around the knee joint tissue with 40 ul of sterile PBS alone at 15 minutes after bacterial inoculation, and thereafter at 24-hour intervals during 7 days experimental period.
  • 2 plg+/+ mice were given 40 ul of sterile PBS alone at 15 minutes after bacterial inoculation, and thereafter every 24 hours for 7 days.
  • 2 plg-/- mice with systemic injections 2 plg-/- mice were given 100 ⁇ l human plasminogen (10 ⁇ g/ ⁇ l) intravenously 1 hour before bacterial inoculation and thereafter every 24 hours for 7 days.
  • mice were sacrificed at day 7 after bacterial inoculation and the knee joints were taken and homogenized in I ml sterile PBS. After serial dilutions, the solutions of homogenates were spreaded on LB agar plates and incubated at 37°C overnight. Viable bacterial colonies were then counted to evaluate the number of S. aureus bacteria in each homogenate.
  • mice 7 plg +/+ mice were locally injected under the knee skin and around the knee joint tissue with 50 ul of sterile PBS alone at 15 minutes after bacterial inoculation, and thereafter the same local injections were performed at 24-hour intervals from day 0 to day 2 of the experimental period.
  • mice were sacrificed at day 3 after bacterial inoculation and the knee joints were taken and homogenized in 1 ml sterile PBS. After serial dilutions, the solutions of homogenates were spreaded on LB agar plates and incubated at 37°C overnight. Viable bacterial colonics were then counted to evaluate the number of S-aureus bacteria in each homogenate.
  • mice Thirty-six 8 week-old mice are randomly divided into three groups; ligature-infected, ligature-sham infected and controls. The mice are kept in conventional maintenance with a 12-hour light / 12-hour dark cycle and are fed chow and water ad libitum.
  • S . aureus -adhered ligatures are prepared by immersing 7 mm pieces of sterile ligature in LB broth and cultured at 37°C to late logarithmic-early stationary phase.
  • the ligatures are processed with the above procedure but without the microorganisms.
  • For enumeration of the bacteria on the ligatures it is suspended in 1 ml of LB broth and vortexed for 30 seconds. Thereafter the suspensions are diluted serially and spreaded on LB agar plates and incubated at 37°C overnight. Viable bacterial colonies were then counted to evaluate the number of S. aureus.
  • the infection of the periodontium in the experimental- and in the sham-infected groups are performed by placing and tying the ligatures around molar teeth in the maxilla of the anesthetized animals.
  • a S . aureus -adhered- or a sham- treated ligature is tied on the first maxillary molar (M1) in the left maxilla with the help of sterile instruments. After the knot is tightened, the ligature is pushed into the crevice. Control animals are not ligated nor infected with the microorganism.
  • the presence of bacteria is examined by either taking the biofilm samples at the ligated molar area, or by pulling of the molar tooth carefully and in a sterile fashion.
  • the samples are immediately transferred into LB broth, vigorously vortexed, serially diluted and placed onto LB agar plates and incubated at 37°C overnight.
  • the total CFU on the LB agar plates are counted thereafter to determine the number of bacteria.

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